The Science of Climate Change - Georgia Institute of...
Transcript of The Science of Climate Change - Georgia Institute of...
Kim M. Cobb [email protected]
The Science of Climate Change
greenhouse gases in the
atmosphere trap heat at
the Earth’s surface and
prevent it from escaping.
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These gases include:
•Carbon dioxide CO2
•Methane CH4
•Nitrous oxide N2O
•Chlorofluorocarbons
•Water vapor H2O
(this is the most important one, by far!)
without greenhouse gases
average temp of Earth
would be -18ºC instead of
15ºC
greenhouse gases trap heat because they
absorb radiation in the infrared range,
according to specific bond geometries and
vibrational modes (ex CO2 below)
ice core CO2 records confirm
that the CO2 trend began in the
1800’s
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The ‘instrumental’ record
of climate shows a ~1ºC
warming over the last
century
Source: Hadley Center
UK Met Office
Jones et al., 1999
CO2
range = 200 to 280ppm
Temperature
range = 5ºC
80 ppm
A paleo perspective: glacial-interglacial cycles
5ºC
But why doesn’t an 80 ppm
change in CO2 correspond to a
5 C change?
The climate system does not
reach equilibrium
instantaneously
Other processes can change
the equilibrium temperature.
Why do 99.999% of climate scientists believe
that CO2 is warming the planet?
1. Theory predicts that increasing atmospheric CO2 should warm
the planet.
2. Geologic evidence links CO2 and temperature in the past.
3. The warming is unprecedented in the most recent centuries
(dwarfs natural variability).
4. Climate models show that rising CO2 is necessary to simulate
20th century temperature trends (solar and volcanic minor
players).
Ice core climate and CO2 records
tiny gas bubbles
in the ice trap
ancient air samples
Atmospheric CO2 and temperature over
the past 650 thousand years
CO2 and temperature
are closely linked
on geologic timescales
#2
To understand how climate has changed in
the past, we need to use records of climate
preserved in ice cores, ancient tree rings,
coral bands, and other “paleoclimatic”
sources:
key is to CALIBRATE to temperature records
The “Hockey Stick”
Key Points:
error bars increase as you go back in time
natural variability accounts for <0.5ºC over the last millennium
late 20th century temperature trend is unprecedented
#3
Climate science under seige:
live from the trenches
“Much of the debate over
global warming is predicated
on fear, not on science.”
-- Sen. Inhofe, R-Okl
CLIMATE DATA
AND MODEL
UNCERTAINTY
A broken “hockey stick”?
http://www.freerepublic.com/focus/f-news/1010630/posts
The “hockey stick” has been reproduced many times
IPCC WG1, 2007
Intergovernmental
Panel on
Climate Change
(IPCC) 2001
#4
IPCC WG1, 2007
You need
CO2
Consequences of Global Warming (IPCC SPM-AR4)
1) Reduced uptake of CO2 by land and ocean in warmer climate
2) Rising sea levels (0.3 to 0.6m by 2100)…. at a minimum
3) Ocean pH will decrease by 0.14 to 0.35 (already down 0.1)
4) Snow cover will decrease, permafrost melt, sea ice melt
5) Extreme events (temperature and precipitation) will become more frequent
6) Tropical cyclones will become more intense
7) Storm tracks will move poleward
8) Rainfall will increase in the high latitudes, decrease in the subtropics
9) Meridional overturning of Atlantic ocean will decrease
The uncertain CO2 future
Range of CO2 emissions scenarios:
Strict international agreements
CO2 at 650ppm by 2100
Mid-ground 850ppm by 2100
Business as usual 1370ppm by 2100
Caldeira and Wickett, 2005
The uncertain climate future
COLORS=
different CO2
paths
grey bars=
different model
responses to
different CO2
concentrations
Take-homes:
Lower limit:
1°C by 2100
Upper limit:
6.5°C by 2100
Projected temperature change: global view
Take-homes:
-poles warm more
-land warms more
-ocean warming
patchy and complex
uneven warming
will shift rainfall
patterns
Diffenbaugh et al, 2005
US http://www.usgcrp.gov/usgcrp/nacc/se-mega-region.htm
Regional models use global model output,
run at high-resolution (5km) grid
Length of heat waves increase
(# days/event)
Peak temperatures increase
white = models disagree
color = models mostly agree
stippled = models agree
Projecting precipitation is VERY uncertain business,
yet extremely critical to human impacts.
Projected precipitation change: global view
Projected precipitation change: regional view
change in yearly
average precipitation # heavy rain days # dry days
Diffenbaugh et al, 2005
mm/day days/yr days/yr
IPCC says increase
in hurricane intensity
“likely” (66%)
Feely et al, 2012
Increasing CO2 decreases ocean pH
- already measureable
as -0.1 pH unit in 30yrs
- will continue as
atmospheric CO2
increases
- effect on marine
calcifiers (corals)
can’t be good
(ex = pteropod exposed
to low pH)
Orr et al, 2005
The Earth’s ice is melting,
sea level has increased
~3 inches since 1960
~1 inch since 1993
-signs of accelerating
melting are now clear
-land ice particularly
striking, poles more
complicated
-IPCC estimates project
current trends forward
i.e. LOWER estimate
using no acceleration
Ice and sea level: wild cards
Stroeve et al, 2008
Arctic Summer Sea Ice reducing over 30 years of satellite record
2012 a record low
Rignot et al., GRL 2011
Mass balance estimates
(blue/black = traditional;
Red = satellite gravity)
For
GREENLAND
ANTARCTICA
BOTH
Can we detect melting
of the polar ice sheets?
YES,
especially in Greenland.
New Radar Data
Show ice streams
That penetrate
Deep into
Antarctica
Rignot et al., Science 2011
Mass balance of Antarctica is critical…
Shepherd et al., Science 2012
Some parts are growing
But most parts
are melting
Shepherd et al., Science 2012
Cumulative mass
balance is negative.
Translation: data
support melting
polar ice caps.
Implies that sea level
has risen by 11±4mm
since 1990.
Shepherd et al., Science 2012
Nerem et al., 2010
20 years of satellite-based sea level estimates
Nerem et al., 2010
Sea level changes with phase of the El Nino-Southern Oscillation
Sea level rise:
IPCC says +7” to +22” by 2100,
recent trends are 3mm/yr +12” by 2100
much more if rapid ice
sheet collapse occurs
(positive feedback from
“bed lubrication”)
most scientists
(including me!)
would go on record
for 1m rise (30 inches)
CERTAIN
UNCERTAIN
Warming of 1-6°C by 2100.
Sea levels will rise by 6 to 30 inches by 2100.
Oceans will continue to acidify.
Precipitation patterns will change. More irregular precipitation.
Extreme events will increase, hurricanes more intense.
Prospect of abrupt climate change.
We have already committed to centuries of climate change